Monday, December 9, 2024

[Botany • 2024] Impatiens bungeusing (Balsaminaceae) • A New species from the Northern Gayo Plateau, Sumatra, Indonesia

 

Impatiens bungeusing Mustaqim & Ruchis.,  

in Mustaqim, Arico, Jayanthi, Andini, Pratiwi et Ruchisansakun, 2024.   

Abstract
Impatiens is a diverse genus within the Balsaminaceae family, comprising over 1,120 species. The northern Gayo Plateau of Sumatra, an island in Southeast Asia, is renowned for its rich Impatiens diversity. In this paper, we described and illustrated a new species named Impatiens bungeusing from this area. This species is most similar to Impatiens vitellina Grey-Wilson but differs in having the distinct abaxial leaf venation in a dry state (vs obscure), lateral sepals falcate-oblong (vs narrowly lanceolate), lower sepals with U-shaped spur (vs straight), broadly ovate dorsal petal (vs ovate), and ovate sub-rhomboidal upper lateral united petals (vs oblong). This discovery brings the total number of known Impatiens species in Sumatra to forty-eight.

Keyword: Ericales, herbs, Impatiens tapanuliensis, Impatiens vitellina, Malesia, limestone plant, taxonomy, Uniflorae

Morphology of Impatiens bungeusing Mustaqim & Ruchis., sp. nov.
 A. Plants in habitat. B. Living plant. C. Inflorescence. D. Flower. E. Lateral sepals. F. Dorsal petals. G. Lateral united petals. H. Lower sepal. I. Pedicel and ovary. J. Fruit.
Scale: A = 4 cm, B = 3 cm, C–D = 1 cm, E = 2 mm, F = 3 mm, G–J = 5 mm. Photographs by Wendy A. Mustaqim.

Morphology of Impatiens bungeusing Mustaqim & Ruchis., sp. nov.
  
A. Plant. B. Leaves showing petiole. C. Leaves showing apex and margin. D. Inflorescence. E. Flower, frontal view. F. Flower, lateral view. G. Pedicel, lower sepal, stamens, and ovary. H. Lateral sepal. I. Dorsal petal. J. Lateral united petals.
Scale: A = 3 cm, B–D = 5 mm, E–G = 1 cm, H = 3 mm, I–J = 5 mm. 
Illustrated by Yuanito Eliazar.

Impatiens bungeusing Mustaqim & Ruchis., sp. nov. 

Type: Indonesia. Aceh Province: Aceh Tengah Regency, Jagong Jeget, ..., 2100 m asl, 11 January 2023, Mustaqim 2577 (holotype: LGS; isotype: MEDA). 

Diagnosis: Impatiens bungeusing is similar to Impatiens vitellina Grey-Wilson. However, it differs in having the distinct abaxial leaf venation in a dry state (vs obscure), flowers with lower sepal having U-shaped spur (vs straight), broadly ovate dorsal petal (vs ovate), and ovate sub-rhomboidal upper lateral united petals (vs oblong) (Table 1).


Etymology: The specific epithet "bungeusing" is derived from the Gayo language. "Bunge" means flower, and "using" means yellow, reflecting the plant's bright yellow flowers.


Wendy A. Mustaqim, Zulfan Arico, Sri Jayanthi, Wanda R. Andini, Devi Pratiwi and Saroj Ruchisansakun. 2024. Impatiens bungeusing (Balsaminaceae), A New species from the Northern Gayo Plateau, Sumatra, Indonesia. Taiwania. 69(4); 554-559. DOI: 10.6165/tai.2024.69.554  taiwania.ntu.edu.tw/abstract/2035

[Paleontology • 2024] Theropod Dinosaur Diversity of the lower English Wealden: Analysis of a tooth-based fauna from the Wadhurst Clay Formation (Lower Cretaceous: Valanginian) via phylogenetic, discriminant and machine learning methods


An Early Cretaceous floodplain in southeastern England, 135 million years ago:
a spinosaur takes over the carcass of an ornithopod, much to the annoyance of the smaller tyrannosaurs (left) and dromaeosaurids.


in Barker, Handford, Naish, Wills, Hendrickx, ... et Gostling, 2024. 
artwork by Anthony Hutchings.
 
Abstract
The Lower Cretaceous Wealden Supergroup of southern England yields a diverse assemblage of theropod dinosaurs, its taxa being represented by fragments in addition to some of the most informative associated skeletons of the European Mesozoic. Spinosaurids, neovenatorid allosauroids, tyrannosauroids and dromaeosaurids are among reported Wealden Supergroup clades. However, the majority of relevant specimens are from the Barremian Upper Weald Clay and Wessex formations, and theropod diversity in the older Berriasian–Valanginian Hastings Group has remained poorly known, the fragmentary specimens reported thus far remaining enigmatic both in terms of phylogenetic affinities and sometimes provenance. A better understanding would be welcome given the paucity of Berriasian–Valanginian dinosaurs worldwide. Here, we describe an assemblage of Hastings Group theropod teeth from the Valanginian Wadhurst Clay Formation, mostly collected from the Ashdown Brickworks locality near Bexhill, East Sussex. These teeth were assessed using phylogenetic, discriminant and machine learning analyses and were found to include members of Spinosauridae, Tyrannosauroidea and Dromaeosauridae, in addition to others that remain of uncertain affinity within Coelurosauria. The taxa appear distinct from those already known from Wealden Supergroup strata: the spinosaurid cannot be referred to Baryonyx or the tyrannosauroid to Eotyrannus, for example, but we have not named new taxa at this time. Combined with other findings in the Wadhurst Clay Formation, our study indicates that Valanginian theropod diversity was comparable to that of younger Wealden Supergroup units, implying that the ‘characteristic’ theropod components of Wealden faunas were established early in the deposition of this famous geological succession.

Keywords: theropod, Wealden Supergroup, phylogenetics, machine learning, dinosaur, Cretaceous

Theropod teeth from the Wadhurst Clay Formation.
A, BEXHM 1995.485 (morphotype I). B, BEXHM 2002.50.123 (morphotype II). C, BEXHM 2002.50.124 (morphotype III). D, BEXHM 2005.29 (morphotype IV). E, NHMUK PV R37630 (morphotype V).
 A, C–E, lingual; B, labial view. Scale bar represents 10 mm.

Schematic representation of the theropod diversity throughout the Wealden Supergroup, with specimens from the Wealden Group (Wessex sub-basin) and the Hastings and Weald Clay groups (Weald sub-basin).

An Early Cretaceous floodplain in southeastern England, 135 million years ago: a spinosaur (centre) takes over the carcass of an ornithopod, much to the annoyance of the smaller tyrannosaurs (left) and dromaeosaurids (bottom right).
artwork by Anthony Hutchings.


Chris T. Barker, Lucy Handford, Darren Naish, Simon Wills, Christophe Hendrickx, Phil Hadland, Dave Brockhurst and Neil J. Gostling. 2024. Theropod Dinosaur Diversity of the lower English Wealden: Analysis of a tooth-based fauna from the Wadhurst Clay Formation (Lower Cretaceous: Valanginian) via phylogenetic, discriminant and machine learning methods. Papers in Palaeontology. DOI: doi.org/10.1002/spp2.1604

[Crustacea • 2024] Cryptione grandis • Resurrection of the parasitic isopod genus Cryptione Hansen, 1897 (Epicaridea: Bopyridae) and Description of A New Species of parasitic isopod (Epicaridea: Bopyridae) from the deep-sea shrimp Notostomus gibbosus (Caridea: Acanthephyridae) with an analysis of its phylogenetic position based on molecular data


Cryptione grandis sp. nov. from Notostomus gibbosus

 Williams, Horch, Ceballos & Bracken-Grissom, 2024

Abstract
A new species of pseudionine parasite is described from the deep-sea shrimp Notostomus gibbosus A. Milne-Edwards, 1881, collected in the Gulf of Mexico, the first record of a bopyrid parasitizing any member of the family Acanthephyridae Spence Bate, 1888. Morphological and molecular data are provided to support the inclusion of the new species and 12 other branchial ectoparasites of caridean shrimps in the genus Cryptione Hansen, 1897 that is resurrected herein. Cryptione is sister to the genus Pseudione sensu stricto, ectoparasites of axiid and callianassid shrimps as well as nephropid lobsters. The new species Cryptione grandis can be distinguished from its closest congeners including C. parviramus (Adkison, 1988) from the Gulf of Mexico by several female and male characters. The epicaridium larvae of C. grandis were examined with scanning electron microscopy (SEM), only the second description of this stage for any species in the genus. A table listing all species in Cryptione and taxonomic notes on some species are provided.

Keywords: Bopyrid, Ectoparasite, Epicaridium larva, New species, Pseudioninae

Systematics
Order Isopoda Latreille, 1816
Suborder Epicaridea Latreille, 1825

Superfamily Bopyroidea Rafinesque, 1815
Family Bopyridae Rafinesque, 1815
Subfamily Pseudioninae Codreanu, 1967

Cryptione Hansen, 1897

Cryptione grandis sp. nov. from Notostomus gibbosus
(a–d female holotype (USNM 1716194); e male allotype (USNM 1716195)).
 a Lateral view of N. gibbosus with C. grandis sp. nov. extending from right branchial chamber (ventral view of female with larvae in brood chamber shown); b lateral view of N. gibbosus with C. grandis sp. nov. removed and positioned dorsal side up (male attached to posterior pleon, shown with arrow); c female dorsal view; d female ventral view; e male dorsal view.
Scale bars: a–d = 5 mm; e = 1.5 mm

Cryptione grandis sp. nov.

Etymology: The species epithet grandis is Latin for large or great, denoting the size of the female parasite.

Type locality: Northern Gulf of Mexico ...; type host: Notostomus gibbosus.


Jason D. Williams, Amanda P. Horch, Angela Ceballos and Heather Bracken-Grissom. 2024. Resurrection of the parasitic isopod genus Cryptione Hansen, 1897 (Epicaridea: Bopyridae) and Description of A New Species of parasitic isopod (Epicaridea: Bopyridae) from the deep-sea shrimp Notostomus gibbosus (Caridea: Acanthephyridae) with an analysis of its phylogenetic position based on molecular data. Marine Biodiversity. 54, 86. DOI: doi.org/10.1007/s12526-024-01475-z 
 

[Entomology • 2024] Anorthoa wangi • A New Species related to Anorthoa changi (Lepidoptera: Noctuidae: Hadeninae) from Wuyishan National Park, China

 

 Anorthoa wangi Guo & Xie, 

in Xie, Guo, Wang et Gao, 2024. 

Abstract
Background: Anorthoa Berio, 1980 is a genus within the subfamily Hadeninae . This genus has a close relationship with the rama species complex of the genus Harutaeographa. It comprises three species groups: the munda-group, the angustipennis-group and the rubrocinerea-group. The species Anorthoa changi Ronkay & Ronkay, 2001 from Taiwan Island belongs to the rubrocinerea-group.

New information: A new species related to Anorthoa changi Ronkay & Ronkay, 2001, is described from Wuyishan National Park, China. The new species can be distinguished from its sister species by its larger size and some differences in the genitalia. Now, the number of species in the genus Anorthoa is increased to eleven.

Keywords: Anorthoa, Orthosiini, rubrocinerea-group, taxonomy, China

Live male adults of Anorthoa wangi sp. nov. from Fujian, China
 (a-c represent the same individual).
 Photo by Yulong Zhang.

Anorthoa wangi Guo & Xie, sp. nov.


 Rui Xie, Liang Guo, Chenbin Wang and Hongdi Gao. 2024. A New Species related to Anorthoa changi from Wuyishan National Park (Lepidoptera, Noctuidae, Hadeninae). Biodiversity Data Journal. 12: e139425. DOI: doi.org/10.3897/BDJ.12.e139425

[Funga • 2024] Phellodon aquiloniniger, P. castaneoleucus, ... (Basidiomycota: Thelephorales) •  The Genus Phellodon in Europe: Four New Species, One New Combination, Four New Typifications and A First European Record

  

Phellodon aquiloniniger A.M. Ainsw. & Svantesson,

in Svantesson, E. Larsson, K.-H. Larsson, Parfitt, Suz, et Ainsworth, 2024. 

Abstract 
Phellodon is a globally distributed genus of stipitate hydnoid fungi recognised by a white spore print and an ectomycorrhizal life strategy. In Europe, many Phellodon species have declining populations and are used as indicators of forests with high conservation values. However, their use in this context and the correct assessment of their extinction risk, according to IUCN guidelines, are currently hampered by inconsistent name usage and unclear species delimitations, primarily within the species complexes of P. melaleucus, P. niger and P. tomentosus. We analysed 286 ITS sequences of Phellodon, of which 51 were also analysed in conjunction with the corresponding LSU regions. This work included 102 newly sequenced collections, primarily sourced from Sweden and the UK. Our phylogenetic results show that four species are new to science and hence we formally describe P. castaneoleucus within the P. melaleucus morphological complex, P. aquiloniniger and P. frondosoniger within the P. niger complex and P. dititomentosus as a sister species to P. tomentosus. The combination P. melilotinus is made to accommodate an additional, previously described, species that belongs in the P. niger complex. We designate lectotypes and epitypes for P. melaleucus, P. niger and P. tomentosus as well as an epitype for P. melilotinus. Phellodon ellisianus is recorded as new to Europe and the ecological amplitude of P. secretus and P. violaceus is revealed to be wider than previously believed. We provide a key to all 13 species currently known in Europe and assign them to three habitat-based assemblages based on data from the Nordic countries and the UK. We hope this will facilitate the assessment of such habitats for legal protection and other conservation-related actions.

Keywords: ECM fungi ; conservation; new taxa; stipitate hydnoid; tooth fungi


Phellodon aquiloniniger A.M. Ainsw. & Svantesson


Phellodon dititomentosus 


  Svantesson, S.; Larsson, E.; Larsson, K.-H.; Parfitt, D.; Suz, L.M. and Ainsworth, A.M. 2024. The Genus Phellodon (Thelephorales, Basidiomycota) in Europe: Four New Species, One New Combination, Four New Typifications and a first European record. Fungal Systematics and Evolution. DOI: doi.org/10.3114/fuse.2025.15.01

Sunday, December 8, 2024

[Paleontology • 2024] Threordatoth chasmatos • A new procolophonid (Parareptilia: Procolophonidae)with complex dentition from the Late Triassic of southwest England


Threordatoth chasmatos
Meade, Butler, Jones & Fraser, 2024 
 
Artwork by Mark Witton.

Abstract
Fissure fill deposits from the Late Triassic to Early Jurassic of England and Wales preserve a diverse small tetrapod fauna including procolophonids, an important group of Permian and Triassic parareptiles that radiated across Pangaea following the end-Permian extinction event. Procolophonids are currently known from two fissure fill sites: incomplete and isolated remains from Ruthin Quarry (Wales) and type and referred material of Hwiccewyrm trispiculum from Cromhall Quarry (southwest England). The age of the Cromhall fissure deposits has been debated but recent radiometric dating suggests a Carnian age for at least some of the fossil assemblages. Here, we present material from several fissure assemblages at Cromhall, which are interpreted as stratigraphically older than the assemblage that yielded Hwiccewyrm. We describe a new species of leptopleuronine procolophonid based on partial remains with unique tooth morphology. Threordatoth chasmatos gen. et sp. nov. is characterized by maxillae with a reduced number of complex tricuspid teeth along with dentaries that bear labiolingually compressed monocuspid teeth and in some cases have a peculiar edentulous tip. These distinct tooth morphologies occlude closely, perhaps facilitated by a flexible dentary symphyseal connection. This unique combination of characters may suggest a high degree of oral food processing of a mode unlike other procolophonids, occurring among the broader leptopleuronine adaptation towards diets of high-fibre herbivory/omnivory and insectivory. Phylogenetic analysis places the remains of Threordatoth as a derived leptopleuronine, sister taxon to Hwiccewyrm, in a clade with taxa including SoturniaHypsognathus, Libognathus and two unnamed leptopleuronines from the southwest USA.

Keywords: Procolophonidae, fissure fill, Late Triassic, Leptopleuroninae, Parareptilia, dental complexity

SYSTEMATIC PALAEONTOLOGY

PARAREPTILIA Olson, 1947 sensu Laurin & Reisz (1995)

PROCOLOPHONOIDEA Romer, 1956
PROCOLOPHONIDAE Seeley, 1888
LEPTOPLEURONINAE Ivakhnenko, 1979

Threordatoth chasmatos gen. et sp. nov. UMZC 2023.122 (holotype), partial left maxilla with four teeth in:
 A, lateral; B, medial; C, ventral; D, dorsal view.

Genus Threordatoth nov.
 
Derivation of name: The genus name is derived from Old English and recognizes the tricuspid nature of the maxillary teeth of this taxon: þrēo meaning ‘three’ (undeclined) in the Mercian dialect; orda meaning ‘points’, or ‘spear points’; and tōþ meaning ‘tooth’.
 
Threordatoth chasmatos sp. nov.

Derivation of name: The species name is derived from Greek: χάσμα meaning ‘yawning chasm’, or ‘fissure’, referring to the fissures in which Threordatoth and numerous other taxa are preserved.

Diagnosis Distinguished from other procolophonids by the following combination of features: low maxillary tooth count (three or four); maxillary crowns are triangular in occlusal view, being strongly mesiodistally expanded at the labial margin (best developed in tooth 2); distal margins of the maxillary crowns are concave in occlusal view; maxillary crowns are tricuspid, with two clearly separated labial cusps; distolabial cusp of maxillary crowns is enlarged relative to mesiolabial cusp; two foramina on lateral surface of the maxilla, the anterior foramen being larger and positioned at the mid-height of the maxilla above the mesiolabial cusp of the second maxillary tooth, and the posterior foramen being positioned above the space between the second and third maxillary teeth and closer to the ventral margin.

Life reconstruction of Threordatoth chasmatos gen. et sp. nov. among the fissures of Carnian–Norian southwest England, based in part upon aspects of the anatomy of the closely related Hwiccewyrm.
Artwork by Mark Witton.


Luke E. Meade, Richard J. Butler, Marc E. H. Jones and Nicholas C. Fraser. 2024. A new procolophonid with complex dentition from the Late Triassic of southwest England. Papers in Palaeontology
  x.com/ThePalAss/status/1865009467596628266

[Botany • 2024] Allium dinaricum (Amaryllidaceae) • A New Species of Allium sect. Codonoprasum from the Balkan Peninsula based on morphology and karyology


Allium dinaricum  Bogdanović, Anačkov, Ćato, Borovečki-Voska, Salmeri & Brullo, 

in Bogdanović, Anačkov, Ćato, Borovečki-Voska, Salmeri et Brullo, 2024. 

 Abstract  
Allium dinaricum (Amaryllidaceae), a new species of A. sect. Codonoprasum from the NW Balkan Peninsula is described and illustrated. It is a late summer flowering geophyte occurring in several localities of Croatia, Bosnia and Herzegovina, Serbia and Montenegro, where it usually grows in rupestrian calcareous stands from the coastal to mountain belts. The morphological traits, karyology (2n = 2x = 16), leaf anatomy, seed micromorphology and ecology of the new species are provided. Possible taxonomic relationships with other species occurring mainly in the E Mediterranean are also examined.

KEYWORDS: Allium, Allium dinaricumAllium sect. Codonoprasum, Amaryllidaceae, Balkan Peninsula, Balkans, karyology, morphology, new species, taxonomy

Allium dinaricum – A: rupestrian growth habitat; B, D: inflorescences; C: habit.
 A–D: Krk Island, Surbova, 9 Sep 2023, photographs by S. Bogdanović.

Allium dinaricum Bogdanović, Anačkov, Ćato, Borovečki-Voska, Salmeri & Brullo, sp. nov. 

Holotype: Croatia, Mt Velebit, above Velike Brisnice, in calcareous rocky crevices along mountain path, ..., c. 800 m, 13 Sep 2023, S. Bogdanović & V. Lopac s.n. 
(ZAGR 78944!; isotypes: B!, BUNS!, CAT!, ZA!, ZAGR!).
– Allium fuscum var. gracile Anačkov, Takson. Horol. Roda Allium Srbiji: 132. 2009, nom. inval., not effectively published (Turland & al. 2018: Art. 30.9 and 32.1(a)).

Diagnosis — Allium dinaricum is similar to A. fuscum but differs from the latter in having outer bulb tunics slightly fibrous (vs coriaceous), stems often geminate (vs single), leaf cross-section semi-circular (vs flat), leaf blade narrower, with 2 prominent ribs, spathe valves usually shorter and erect (vs longer and divaricate or reflexed), inflorescence few-flowered (vs many-flowered), tepals smaller, outer stamen filaments shorter, annulus shorter, anther apex apiculate (vs rounded), and ovary smaller.

Etymology — The specific epithet refers to the Dinaric Alps, where the new species is distributed.


Sandro Bogdanović, Goran Anačkov, Sebastian Ćato, Ljiljana Borovečki-Voska, Cristina Salmeri, Salvatore Brullo. 2024. Allium dinaricum (Amaryllidaceae), A New Species of A. sect. Codonoprasum from the Balkan Peninsula based on morphology and karyology. Willdenowia. 54(2-3), 183-196. DOI: doi.org/10.3372/wi.54.54302 (30 October 2024)  
 

[Botany • 2024] Cladopus yangjiangensis (Podostemaceae) • A New Species from Guangdong, South China, redefining the phylogenetic relationships within Cladopus

 

Cladopus yangjiangensis  X.T.Liu, G.Di Chen & B.Hua Chen,

in Zhang, Liu, Tian, Z.-X. Chen, Huang, G.-D. Chen et B.-H. Chen. 2024. 

Abstract
This paper introduces Cladopus yangjiangensis, a newly identified species that enriches our understanding of the diversity of the Podostemaceae in East Asia. Distinctive in its morphological traits, this species is characterized by the region’s longest flowering shoots and exhibits a high number of elongated leaves per cluster, along with relatively slender roots. Phylogenetic analyses using Maximum Likelihood and Bayesian Inference methods on plastome and matK sequences confirm C. yangjiangensis as a distinct species. It forms a clade with C. fukienensis, its closest relative, together branching off from C. austrosinensis. The plastome of C. yangjiangensis is 132,818 bp in length, comprising two inverted repeat regions of 20,881 bp, which are separated by large and small single-copy regions of 78,713 and 12,343 bp, respectively. Genetic analysis reveals the extensive loss of the ycf1 and ycf2 genes in the chloroplast genome, a trait common to the Podostemaceae, suggesting adaptations to environmental conditions or gene transfers to nuclear or mitochondrial genomes. This study improves the clarity of phylogenetic relationships in previous studies and underscores the importance of continued taxonomic and phylogenetic research.

Key words: Biodiversity, chloroplast genome, morphology, phylogeny, Podostemaceae

Cladopus yangjiangensis
A flowering shoot on roots, inverted tower shape (reproductive leaves (a.k.a. bracts) imbricate, finger-like) a flower with 2 stigmas, a stamen (stamen clearly longer than ovary) B stamens, arrow points to two tepals, fused to ovary C gynoecia, arrow points to reddish, ribbon-shaped stigmas D stamen and tepals (tepals attached to filament bases on either side) E stamen F gynoecium with ellipsoid ovary, no bracts G longitudinal ovary section H ovules.
Scale bars: 2 mm (A); 500 μm (A, B, C, D, E, F, G); 200 μm (H).

Cladopus yangjiangensis
A habitat (Photographed by Guo-Di Chen) B root with tufts of leaves, leaves linear, brick red in color C plants in bud adhering to rock surface D flowering shoot E top view of flower (red arrow pointing to the stamen) F mature fruits.


 Cladopus yangjiangensis X.T.Liu, G.Di Chen & B.Hua Chen, sp. nov.
 
DiagnosisCladopus yangjiangensis shares certain similarities with C. fukienensis and C. austrosinensis, such as comparable ovary lengths, and analogous stigma and capsule shapes. However, it is distinguished by several unique traits. The leaves of C. yangjiangensis are markedly elongated, measuring 18.7–26.7 mm, which is substantially longer than those of C. fukienensis (1.3–5.0 mm) and C. austrosinensis (up to 6 mm). The flowering shoots of C. yangjiangensis also exceed those of other two species, ranging from 4.2 to 13.1 mm, compared to 3.5–6.0 mm in C. fukienensis and 1.6–3.5 mm in C. austrosinensis. Additionally, C. yangjiangensis produces a greater number of bracts, with counts ranging from 20 to 54, in contrast to 12–36 in C. fukienensis and 8–14 in C. austrosinensis. Finally, the root width of C. yangjiangensis is notably narrower, at about 0.4 mm, compared to 0.4–1.3 mm in C. fukienensis and 0.5–1.3 mm in C. austrosinensis (Table 3).

Etymology: The epithet yangjiangensis (阳江) refers to Yangjiang City, Guangdong Province, South China, where this new species was found.
The Yang Jiang Chuan Tai Cao (阳江川苔草).


 Miao Zhang, Xiu-Ting Liu, Min Tian, Zhang-Xue Chen, Ying-Lin Huang, Guo-Di Chen and Bing-Hua Chen. 2024. Cladopus yangjiangensis (Podostemaceae), A New Species from Guangdong, South China, redefining the phylogenetic relationships within CladopusPhytoKeys. 249: 231-249. DOI: doi.org/10.3897/phytokeys.249.140342 

[Botany • 2024] Petrocodon mirus (Gesneriaceae) • A New Species from southwest Guangxi, China


Petrocodon mirus X.Z.Shi, J.X.Fu & Li H.Yang,

in Shi, Fu, X.-L. Huang, M.-H. Huang, Kang et Yang, 2024. 
 
Abstract
Based on morphological observations, molecular phylogenetic analyses and literature consultations, a new species of Gesneriaceae, Petrocodon mirus, is described and illustrated here. This new species exhibits morphological similarity with P. pulchriflorus and P. hechiensis, but is easily distinguished from the latter two by its slightly leathery leaf blade, liner to ligulate-oblong lip lobes, and shorter tube with constriction at middle. In addition, the new species differs from P. pulchriflorus by its reflexed adaxial lip lobes, and from P. hechiensis by its included stamen and pistil. However, the stigma of P. mirus is much similar to the chiritoid stigma diagnostic for Chirita Buch.-Ham. ex Don (now mostly included in Primulina); based on this observation a new hypothesis for the evolution of the chiritoid stigma is proposed.  

Keywords: Flora of Guangxi, Karst, morphology, subfamily Didymocarpoideae, taxonomy



Petrocodon mirus X.Z.Shi, J.X.Fu & Li H.Yang, sp. nov.


Xi-Zuo Shi, Jia-Xin Fu, Xiu-Ling Huang, Min-Hang Huang, Ming Kang and Li-Hua Yang. 2024. Petrocodon mirus (Gesneriaceae), A New Species from southwest Guangxi, China. Nordic Journal of Botany. DOI: doi.org/10.1111/njb.04522  


[Ichthyology • 2024] Kapuasia, A Genus Name for ‘Nemacheilusmaculiceps (Teleostei: Nemacheilidae) from the Kapuas Drainage on Borneo


Kapuasia maculiceps (Roberts, 1989)
 Kapuasia gen. nov.     

Kottelat & Tan, 2024   
  Raffles Bulletin of Zoology. 72   

 Abstract
 Kapuasia, new genus, is created to accommodate ‘Nemacheilus’ maculiceps, from the Kapuas drainage on Borneo. It is distinguished by the presence of a large suprapectoral flap above the pectoral fin, and its unique lip morphology. The lower lip has a continuous anterior edge, and its median part has 8–10 ridges on each side, radiating at the anterior extremity, across the whole lip, resulting in a crenulated inner edge of the lip. 

Key words. Cobitoidei, Nemacheilidae, Schistura, Borneo, stone loach




 Maurice Kottelat and Tan Heok Hui. 2024. Kapuasia, A Genus Name for ‘Nemacheilus’ maculiceps (Teleostei: Nemacheilidae). Raffles Bulletin of Zoology. 72; 105–109. 

[Botany • 2024] Anthurium pedrovianae (Araceae) • A New Species from the canga vegetation of the Serra dos Carajás, Pará, Brazil

 

Anthurium pedrovianae Nadruz & Camelo, 
  
in Camelo et Coelho, 2024.

Abstract
A new species of Anthurium section PachyneuriumA. pedrovianae sp. nov. is described and occurs in canga vegetation of Serra dos Carajás, Pará State, Brazil. Information on conservation status, taxonomy, habitat, geographic distribution, and phenology is provided. Morphologically, the new species is similar to A. lindmanianum but differs from that species peduncle > 3 times the size of the petiole and a spadix < 6 cm long., stipe 6.0–11.0 cm long., purple at the base at the junction with the peduncle, berries are entirely purple, obovate, brown, warty seeds. Additionally, an identification key to distinguish the Pachyneurium species present in Pará is included.

Alismatales, biodiversity, canga (ferric soil), endemism, species discovery, Monocots

Anthurium pedrovianae Nadruz & Camelo.
A. Habit showing a detail the ferric soil; detail of inflorescence at anthesis. B.Erect plant with two inflorescences. C. Elliptical leaf blade with straight margins. D. Detail of midrib and primary lateral veins prominentat the abaxial surface. E. Inflorescence erect, green peduncle, spate greenish to yellowish, patent, long stipe greenish with a dark-purpledetail at the junction at the spathe, spadix conical, purple with white pollen grains. F. Detail of spadix in anthesis. G. Spadix at pos-anthesisgrey, immature berries greenish, mature berries purple. H. Berries entire purple and tepalar filaments are absent.
Photos A–B; F—André-Cardoso; C–E, H—Luiz Otávio Adão; G—Mel C. Camelo.


Mel C. Camelo and Marcus A.N. Coelho. 2024. A New Species of Anthurium (Araceae) from the canga vegetation of the Serra dos Carajás, Pará, Brazil. Phytotaxa. 652(2); 142-148. DOI: doi.org/10.11646/phytotaxa.652.2.6  
 

[Botany • 2024] Primulina hsiwenii (Gesneriaceae) • A New Species from southeastern Yunnan, China

 

Primulina hsiwenii Lei Cai, Ting Zhang & J.D.Ya,

in Cai, Ya et Zhang, 2024.   
Edinburgh Journal of Botany. 81
锡文报春苣苔  ||   journals.rbge.org.uk/EJB
Photographs: Lei Cai.

Abstract
A new species of Gesneriaceae, Primulina hsiwenii Lei Cai, Ting Zhang & J.D.Ya, from the karst regions in southeastern Yunnan, China, is described and illustrated. Its morphological relationship with a similar species is discussed, and a detailed description, colour  photographs, distribution and habitat information and an IUCN conservation assessment are provided.

Keywords: Flora of China, Karst regions, New species, Primulina

Primulina hsiwenii Lei Cai, Ting Zhang & J.D.Ya, sp. nov. 
A, Habitat; B, flowering plant

Primulina hsiwenii Lei Cai, Ting Zhang & J.D.Ya, sp. nov. 
 C, adaxial leaf surface; D, abaxial leaf surface; E, flower, front view; F, flower, side view; G, flower, top view; H and I, opened corolla, exposing stamens and staminodes, and pistil with calyx; J, abaxial view of adnate anthers cohering face to face; K, adaxial view of cohering anthers.
Photographs: Lei Cai.

Primulina hsiwenii Lei Cai, Ting Zhang & J.D.Ya, sp. nov.

A species closely allied to Primulina luochengensis (Yan Liu & W.B.Xu) Mich.Möller & A.Weber in habit, flattened petiole, shape of leaf blade, and shape and structure of flower but mainly differing from the latter in leaf blade covered with appressed puberulent hairs adaxially, puberulent abaxially (vs pubescent on both surfaces), bracts ovate triangular, c.1 mm long (vs narrowly linear, 4–6 mm long), corolla narrow campanulate, 12–16 mm long (vs obliquely campanulate, 8–9 mm long), stamens adnate to ...

Etymology. The specific epithet is in memory of Prof. Li Hsi-Wen of Kunming Institute of Botany, Chinese Academy of Sciences, for his contribution to the taxonomy of the Gesneriaceae family in the Flora of China (Wang et al., 1998).

Vernacular name. The Chinese name is Xī Wén Bào Chūn Jù Tái (锡文报春苣苔).



L. Cai, J. D. Ya and T. Zhang. 2024. PRIMULINA HSIWENII (GESNERIACEAE), A NEW SPECIES FROM SOUTHEASTERN YUNNAN, CHINA. Edinburgh Journal of Botany. 81;  journals.rbge.org.uk/EJB/article/view/1912
  

[Mollusca • 2024] Fissidentalium aurae • A New Species of Fissidentalium (Scaphopoda: Dentaliidae) in association with an actinostolid Anemone from the abyssal Labrador Sea

 

 Fissidentalium aurae
 Linse & Neuhaus, 2024 


Abstract
The benthic biodiversity of the abyssal Labrador Sea was investigated using Agassiz trawl and in situ imagery. A megafaunal scaphopod associated with an epizoic anemone was recovered from soft sediments. Morphological and molecular investigations revealed the scaphopod to be an undescribed species in the dentaliid genus Fissidentalium P. Fischer, 1885. The new scaphopod species is characterised by a large size for the genus, is moderately curved, with numerous narrow, longitudinal ribs (60 ribs at 11 mm diameter ventral aperture), a dentaliid radula, and is described herein as Fissidentalium aurae sp. nov. The new species shows a close genetic relationship to congeners of Fissidentalium and separates from the sister genera Dentalium Linnaeus, 1758 and Antalis H. Adams & A. Adams, 1854. Genetic COI barcoding of the epizoic anemone suggests the species is a member of the family Actinostolidae Carlgren, 1932. The discovered association of a burrowing scaphopod with an epifaunal anemone at abyssal depth is a new record for the region and is indicative of how little is known about symbioses in the deep sea.

Keywords: Species-pair-associations, Ocean seafloor observation system, Abyssal plain, Taxonomy, Lebensspuren


In situ and life images of scaphopod-actinostolid symbiosis;
a Scaphopod (black arrow) hosting anemone with retracted tentacles and its Lebenspur (grey arrows).; b Anemone with extended tentacles (white arrow) and scaphoid created Lebensspur (grey arrow);
c Scaphopod (Paratype 1 SMF 366429) with an epizoic actinostolid anemone

Class Scaphopoda Bronn, 1862
Order Dentaliida Starobogatov, 1974

Family Dentaliidae Children, 1834

Genus Fissidentalium P. Fischer, 1885

Type species: Dentalium ergasticum P. Fischer, 1883: 275–277; 
accepted as Fissidentalium capillosum (Jeffreys, 1877) type by monotypy.

Fissidentalium aurae sp. nov.

Diagnosis: A large-sized, over 60 mm in length and 10 mm in ventral aperture width, Fissidentalium with numerous regular, fine longitudinal ribs. The white shells are robust and no posterior slit on the dorsal aperture was observed in the examined specimens. Most live specimens with shell lengths of 32–63 mm have a sea anemone attached to the concave, anterior surface of the shell. The ventral and dorsal apertures are slightly wider than high. Preserved, unrelaxed soft body dividable into a ventral buccal, a middle gut and a dorsal gonad region (following Shimek and Moreno 1996) and is about 2/3 of total shell lengths. Buccal and gonadal regions are of similar size and each about 3 times longer than the gut region.

Etymology: aura” means breeze in Latin and used in genitive case. This name refers to the windy conditions during SO286 as well as to the shipping company Briese Research operating RV Sonne.

 
Katrin Linse and Jenny Neuhaus. 2024. A New Species of Fissidentalium (Scaphopoda: Dentaliidae) in association with an actinostolid Anemone from the abyssal Labrador Sea. Marine Biodiversity.  54, 88. DOI: doi.org/10.1007/s12526-024-01481-1